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locarna sever  (Informatik Inc)

 
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    Informatik Inc locarna sever
    Secondary structure features of the Pseudokeronopsis ITS2 molecule. ( A ) Consensus secondary structure predicted using the <t>LocARNA</t> Sever. Color bars (0–1) indicate base-pairing probability. ( B ) Structural model for Pseudokeronopsis . ( C ) Helix A structures of congeners. Using the structure of P. carnea as a reference, compensating base changes (CBCs) are marked with filled arrows and hemi-CBCs are indicated with hollow arrows. The variable region is marked by a grey box. Newly sequenced species are in bold. *, misidentified.
    Locarna Sever, supplied by Informatik Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/locarna sever/product/Informatik Inc
    Average 90 stars, based on 1 article reviews
    locarna sever - by Bioz Stars, 2026-05
    90/100 stars

    Images

    1) Product Images from "Ciliate Environmental Diversity Can Be Underestimated by the V4 Region of SSU rDNA: Insights from Species Delimitation and Multilocus Phylogeny of Pseudokeronopsis (Protist, Ciliophora)"

    Article Title: Ciliate Environmental Diversity Can Be Underestimated by the V4 Region of SSU rDNA: Insights from Species Delimitation and Multilocus Phylogeny of Pseudokeronopsis (Protist, Ciliophora)

    Journal: Microorganisms

    doi: 10.3390/microorganisms7110493

    Secondary structure features of the Pseudokeronopsis ITS2 molecule. ( A ) Consensus secondary structure predicted using the LocARNA Sever. Color bars (0–1) indicate base-pairing probability. ( B ) Structural model for Pseudokeronopsis . ( C ) Helix A structures of congeners. Using the structure of P. carnea as a reference, compensating base changes (CBCs) are marked with filled arrows and hemi-CBCs are indicated with hollow arrows. The variable region is marked by a grey box. Newly sequenced species are in bold. *, misidentified.
    Figure Legend Snippet: Secondary structure features of the Pseudokeronopsis ITS2 molecule. ( A ) Consensus secondary structure predicted using the LocARNA Sever. Color bars (0–1) indicate base-pairing probability. ( B ) Structural model for Pseudokeronopsis . ( C ) Helix A structures of congeners. Using the structure of P. carnea as a reference, compensating base changes (CBCs) are marked with filled arrows and hemi-CBCs are indicated with hollow arrows. The variable region is marked by a grey box. Newly sequenced species are in bold. *, misidentified.

    Techniques Used:

    Secondary structure features of the Pseudokeronopsis LSU-D2 molecule. ( A ) Consensus secondary structure predicted using the LocARNA Sever. Color bars (0–1) indicate base-pairing probability. ( B ) Helix II structures of congeners. Using the structure of P. songi as a reference, CBCs are marked with filled arrows and hemi-CBCs are indicated with hollow arrows. The variable regions are marked by grey boxes. Newly sequenced species are in bold. *, misidentified species.
    Figure Legend Snippet: Secondary structure features of the Pseudokeronopsis LSU-D2 molecule. ( A ) Consensus secondary structure predicted using the LocARNA Sever. Color bars (0–1) indicate base-pairing probability. ( B ) Helix II structures of congeners. Using the structure of P. songi as a reference, CBCs are marked with filled arrows and hemi-CBCs are indicated with hollow arrows. The variable regions are marked by grey boxes. Newly sequenced species are in bold. *, misidentified species.

    Techniques Used:



    Similar Products

    locarna sever  (Informatik Inc)
    90
    Informatik Inc locarna sever
    Secondary structure features of the Pseudokeronopsis ITS2 molecule. ( A ) Consensus secondary structure predicted using the <t>LocARNA</t> Sever. Color bars (0–1) indicate base-pairing probability. ( B ) Structural model for Pseudokeronopsis . ( C ) Helix A structures of congeners. Using the structure of P. carnea as a reference, compensating base changes (CBCs) are marked with filled arrows and hemi-CBCs are indicated with hollow arrows. The variable region is marked by a grey box. Newly sequenced species are in bold. *, misidentified.
    Locarna Sever, supplied by Informatik Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/locarna sever/product/Informatik Inc
    Average 90 stars, based on 1 article reviews
    locarna sever - by Bioz Stars, 2026-05
    90/100 stars
    		  Buy from Supplier

    Image Search Results


    Secondary structure features of the Pseudokeronopsis ITS2 molecule. ( A ) Consensus secondary structure predicted using the LocARNA Sever. Color bars (0–1) indicate base-pairing probability. ( B ) Structural model for Pseudokeronopsis . ( C ) Helix A structures of congeners. Using the structure of P. carnea as a reference, compensating base changes (CBCs) are marked with filled arrows and hemi-CBCs are indicated with hollow arrows. The variable region is marked by a grey box. Newly sequenced species are in bold. *, misidentified.

    Journal: Microorganisms

    Article Title: Ciliate Environmental Diversity Can Be Underestimated by the V4 Region of SSU rDNA: Insights from Species Delimitation and Multilocus Phylogeny of Pseudokeronopsis (Protist, Ciliophora)

    doi: 10.3390/microorganisms7110493

    Figure Lengend Snippet: Secondary structure features of the Pseudokeronopsis ITS2 molecule. ( A ) Consensus secondary structure predicted using the LocARNA Sever. Color bars (0–1) indicate base-pairing probability. ( B ) Structural model for Pseudokeronopsis . ( C ) Helix A structures of congeners. Using the structure of P. carnea as a reference, compensating base changes (CBCs) are marked with filled arrows and hemi-CBCs are indicated with hollow arrows. The variable region is marked by a grey box. Newly sequenced species are in bold. *, misidentified.

    Article Snippet: Consensus structures of Pseudokeronopsis ITS2 and LSU-D2 regions (Figures 3A and 5A) were predicted using the LocARNA Sever with default options (available from http://rna.informatik.uni-freiburg.de/LocARNA/Input.jsp ) [ ].

    Techniques:

    Secondary structure features of the Pseudokeronopsis LSU-D2 molecule. ( A ) Consensus secondary structure predicted using the LocARNA Sever. Color bars (0–1) indicate base-pairing probability. ( B ) Helix II structures of congeners. Using the structure of P. songi as a reference, CBCs are marked with filled arrows and hemi-CBCs are indicated with hollow arrows. The variable regions are marked by grey boxes. Newly sequenced species are in bold. *, misidentified species.

    Journal: Microorganisms

    Article Title: Ciliate Environmental Diversity Can Be Underestimated by the V4 Region of SSU rDNA: Insights from Species Delimitation and Multilocus Phylogeny of Pseudokeronopsis (Protist, Ciliophora)

    doi: 10.3390/microorganisms7110493

    Figure Lengend Snippet: Secondary structure features of the Pseudokeronopsis LSU-D2 molecule. ( A ) Consensus secondary structure predicted using the LocARNA Sever. Color bars (0–1) indicate base-pairing probability. ( B ) Helix II structures of congeners. Using the structure of P. songi as a reference, CBCs are marked with filled arrows and hemi-CBCs are indicated with hollow arrows. The variable regions are marked by grey boxes. Newly sequenced species are in bold. *, misidentified species.

    Article Snippet: Consensus structures of Pseudokeronopsis ITS2 and LSU-D2 regions (Figures 3A and 5A) were predicted using the LocARNA Sever with default options (available from http://rna.informatik.uni-freiburg.de/LocARNA/Input.jsp ) [ ].

    Techniques: